EP2466810A1 - Verfahren und Router für dienstbenanntes Routing - Google Patents

Verfahren und Router für dienstbenanntes Routing Download PDF

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Publication number
EP2466810A1
EP2466810A1 EP10290663A EP10290663A EP2466810A1 EP 2466810 A1 EP2466810 A1 EP 2466810A1 EP 10290663 A EP10290663 A EP 10290663A EP 10290663 A EP10290663 A EP 10290663A EP 2466810 A1 EP2466810 A1 EP 2466810A1
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European Patent Office
Prior art keywords
router
service
interest
data
interest packet
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Granted
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EP10290663A
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English (en)
French (fr)
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EP2466810B1 (de
Inventor
Nico Schwan
Shashank Shanbhag
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Alcatel Lucent SAS
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Alcatel Lucent SAS
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Priority to EP10290663.3A priority Critical patent/EP2466810B1/de
Priority to US13/883,134 priority patent/US20130262698A1/en
Priority to CN2011800606181A priority patent/CN103329487A/zh
Priority to JP2013543579A priority patent/JP5671629B2/ja
Priority to PCT/EP2011/066640 priority patent/WO2012079792A1/en
Priority to KR1020137015340A priority patent/KR101467720B1/ko
Publication of EP2466810A1 publication Critical patent/EP2466810A1/de
Application granted granted Critical
Publication of EP2466810B1 publication Critical patent/EP2466810B1/de
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L45/00Routing or path finding of packets in data switching networks
    • H04L45/54Organization of routing tables
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L45/00Routing or path finding of packets in data switching networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L45/00Routing or path finding of packets in data switching networks
    • H04L45/50Routing or path finding of packets in data switching networks using label swapping, e.g. multi-protocol label switch [MPLS]

Definitions

  • the present invention relates to a method and a router for service named routing in a packet based communication network.
  • the communication network comprises at least two servers providing at least one service and a plurality of routers.
  • IP Internet Protocol
  • balancing systems are built on top of the IP layer in order to redirect nodes to the closest content and/or the service, i.e. to access the content and/or the service, respectively.
  • IP addressed based routing does not provide a highly flexible and scalable approach for service provision when the shortest route to the server is a minor criteria. For example, compute intensive services may require much more computing time for provisioning service than the time required for communication packet and/or data packet transport through the communication network from the server to the client.
  • the object of the present invention is achieved by a method for service named routing in a packet based communication network
  • the communication network comprises at least two servers providing at least one service and a plurality of routers, wherein each router of the plurality of routers provides a routing table, a service performance table and an interest route table, each router stores in its routing table for each service of the at least one service at least one connection port associated with the at least one service, each router stores in its service performance table for each service of the at least one service service performance data associated with two or more connection ports of the router, a first router of the plurality of routers sends to two or more neighboring routers via two or more of its connection ports an interest packet associated with the at least one service comprising a service name indicator and a unique interest tag, a second router of the plurality of routers receives the interest packet via an incoming connection port, sends the interest packet via an outgoing connection port associated with the at least one service in its routing table and stores the interest tag of the received interest packet together with the incoming connection port and the out
  • a router for service named routing in a packet based communication network comprising at least two servers providing at least one service and a plurality of routers, wherein the router comprises at least one storage unit storing a routing table, a service performance table which stores for each service of the at least one service service performance data associated with two or more connection ports of the router and an interest route table, a network interface comprising two or more connection ports and a control unit adapted to receive an interest packet, which was sent by another router of the plurality of routers, associated with the at least one service comprising a service name indicator and a unique interest tag via an incoming connection port, send the interest packet via an outgoing connection port associated with the at least one service in the routing table and store the interest tag of the received interest packet together with the incoming connection port and the outgoing connection port in the interest route table, to receive the interest packet comprising data, which comprises a load data of the at least one service, attached to the interest packet by a server of the at least two servers via the outgoing connection port
  • the present invention provides a surprisingly effective way to access and/or provide services, for instants to clients by servers.
  • a service provided by a server may also comprise content provision.
  • Embodiments according to the present invention provide to route on content identities than network addresses, i.e. the determination of the routing path is made based on content and/or service identities,
  • CCN Content Centric Networking
  • NBR name based routing
  • Embodiments of the invention are applicable to, preferably compute intensive, services, like transcoding of video and/or audio data, but not limited and are also suitable for content provision.
  • Embodiments of the present invention overcome state of the art load balancing mechanisms, e.g. for cloud centralized implementations services, design limitations which are as follows:
  • Embodiments of the present invention are focused on designing a new Internet architecture in order to solve problems of the current design while making it future-proof.
  • the present invention focuses on content rather than on establishing communication pipes between end-systems hosting that content. This reliance on names enables it to route to content and services without having to associate a location-dependent address to them.
  • Embodiments of the present invention may therefore be regarded as an implementation of SCN as a control layer over CCN to route interests to the right service.
  • the inventive scheme does not change the CCN layer functionality.
  • the network nodes or routers can run the CCN routing protocol which is used to route requests to services and back.
  • the method for service named routing the first router and/or the second router attaches, preferably by means of a control unit, timestamp data indicating the time of the arrival or forwarding of the interest packet to the interest packet.
  • the first router and/or the second router calculates, preferably by means of the control unit, delay time data being part of the service performance data associated with interest packet by means of the interest tag in the service performance table based on the local time or reception time of the interest packet at the first router and/or second router, respectively and the respective timestamp data previously attached to the interest packet by the first router and/or second router, respectively.
  • the method for service named routing the server and/or the second router , preferably by means of a control unit, attaches bandwidth data to the interest packet.
  • the second router preferably by means of its control unit, and/or the first router, preferably by means of a control unit, compares the bandwidth data stored in the interest packet with the local bandwidth data associated with the incoming and/or outgoing connection port and replacing the bandwidth data by the local bandwidth data in case that the local bandwidth is smaller than the bandwidth stored.
  • the second router and/or the first router preferably by means of the control unit, uses the local bandwidth data and for the bandwidth data stored in the interest packet to calculate the service performance data associated with interest packet by means of the interest tag in the service performance table.
  • the routing data comprises a load data of the at least two servers, bandwidth data associated with the connection to the at least one service and delay time data associated with the connection to the at least one service, rating data associated with the connection to the at least one service, and probability data associated with the rating data.
  • the first router and/or the second router by means of a control unit replaces the correspondingly stored bandwidth data, the delay time data and the load data of the at least one server with the bandwidth data of the received interest packet.
  • the probability associated with a service of the at least one service and with a connection port associated with the at least one service and/or with a neighboring router of the at least two servers and/or of a router of the plurality of routers is the associated rating divided by the sum of all ratings associated with the at least one service irrespective of the connection port.
  • the method for service named routing the first router and/or the second router, preferably by means of a control unit, reduces a result of the calculation of the service performance data calculation, preferably periodically every 1 minute to 10 minutes, by multiplication of a factor.
  • the factor is preferably a number between 0 and 1.
  • a suitable value of the factor can be equal to 0.9.
  • the method for service named routing the at least two servers, preferably by means of a control unit, send an availability message of the at least one service to neighboring routers of the plurality of routers.
  • a router of the plurality of routers preferably by means of a control unit, forwards the availability message to neighboring routers of the plurality of routers when the router receives the availability message.
  • the router of the plurality of routers preferably by means of the control unit, forwards the availability message to neighboring routers of the plurality of routers when the router receives the availability message the first time.
  • the method for service named routing each router, preferably by means of a control unit, restarts the method with the step of sending to two or more neighboring routers via two or more of its connection ports an interest packet associated with the at least one service comprising a service name indicator and a unique interest tag for a randomly selected service from at least one service periodically within a predefined time period.
  • the method for service named routing the second router preferably by means of a control unit, checks whether there is a corresponding outgoing connection port listed in its interest rout table and/or routing table of the router for sending the interest packet via an outgoing connection port associated with the at least one service. In case there is no corresponding outgoing connection port listed then the second router, preferably by means of the control unit, starts the method with the step of sending, by the second router, to two or more neighboring routers via two or more of its connection ports an interest packet associated with the at least one service comprising a service name indicator and a unique interest tag.
  • the method for service named routing each router of the plurality or routers, preferably by means of a control unit, routes communication packets according to the routing table of the router by means of fast path controlling.
  • the router for service named routing the routing table is part of the fast path controlling.
  • connection ports comprise at least one incoming connection port and at least one outgoing connection port for routing interest packets and/or communication packets by means of fast path controlling.
  • one or more of the two or more connection ports act as or provide the functionality of an incoming connection port and an outgoing connection.
  • Control of the fast path layer resides above the named routing layer.
  • OSI Open Systems Interconnection
  • the fast path resides at the second layer and/or third layer, i.e. data link layer and/or the network layer, respectively, of the OSI model.
  • the method for service named routing the first router, preferably by means of a control unit, receives the interest packet via the outgoing connection port associated with the interest tag stored in the interest route table of the first router.
  • the first router preferably by means of the control unit, calculates service performance data based on the data attached to the interest packet, stores the service performance data in the service performance table of the first router and updates the routing table of the first router based on an evaluation of the service performance data stored in the service performance table of the first router.
  • the method for service named routing the first router and/or the second router, preferably by means of a control unit, stores rating data associated with result of the calculation of the service performance data calculation in its service performance table being inversely proportional to the load data or load of the server and preferably being inversely proportional to delay time data or delay time and/or proportional to bandwidth data or bandwidth associated with the at least one service.
  • the first router and/or the second router preferably by means of the control unit, calculates probability data for each outgoing connection port associated with the at least one service based on the rating data.
  • the first router and/or the second router preferably by means of the control unit, updates the routing table by means of storing the at least one connection port associated with the at least one service having a maximum probability.
  • each router preferably by means of a control unit, stores in its routing table for each service of the at least one service at least one connection port associated with the at least one service and/or with a neighboring router of the at least two servers and/or of a router of the plurality of routers for routing data packets of each service of the at least one service via an associated connection port to the respective at least one service and/or the respective neighboring router of the at least two servers and/or of a router of the plurality of routers.
  • a neighboring router of the at least one server and/or of a router of the plurality of routers is connected to the at least two servers and/or to the router of the plurality of routers, respectively without having another router of the plurality of routers in between the connection from the neighboring router to the at least two servers and/or to the router of the plurality of routers, respectively.
  • each router preferably by means of a control unit, stores in its service performance table for each service of the at least one service and for each connection port associated with the at least two servers and/or with a neighboring router of the at least two servers and/or of a router of the plurality of routers routing data.
  • the second router of the plurality of routers is a neighboring router of the first router of the plurality of routers.
  • the incoming connection port is the connection port by which the interest packet was received.
  • the outgoing connection port can be the connection port at which the interest packet is sent off.
  • the incoming connection port is a connection port of the router at which the interest packet was received at the first time and the outgoing connection port is a connection port of the router at which the interest packet was sent off at the first time.
  • the interest packet is named or called routing instillation packet.
  • the interest packet can be named or called data packet while the interest packet is send back from the server to the first router.
  • the at least one storage unit is a memory device or data base holding the routing table, the service performance table and/or the interest route table.
  • the service performance data comprises one or more of the following routing specific data: the number of hops along one routing path of the interest data packet, the minimum of available bandwidth on the links along routing path of the interest data packet, administrative costs along one routing path of the interest data packet and a transit delay on the links along the path of the interest data packet.
  • a link may be the connection between two neighboring routers of the plurality of routers.
  • Figures 1a , 1b , 1c show a packet based communication network 1 comprising two servers S1, S2 providing at least one service and nine routers N1, ..., N9 during the different method steps of the method for service named routing in accordance with the present invention.
  • These routers N1, ..., N9 are in accordance with the present invention
  • Direct connections between the routers N1, ..., N9 and/or servers S1, S2 are shown by thin lines indicating network links and/or communication links and routing directions or travel directions of interest
  • data and/or communication packets between the routers N1, ..., N9 and/or servers S1, S2 are shown by arrows.
  • Direct connections between the routers N1, ..., N9 and/or servers S1, S2 are connections without having a further router in between.
  • a neighboring router of the at least one server S1, S2 and/or of a router of the plurality of routers N1, ..., N9 is connected to the at least two servers S1, S2 and/or to the router of the plurality of routers N1, ..., N9, respectively without having another router of the plurality of routers N1, ..., N9 in between the connection from the neighboring router to the at least two servers S1, S2 and/or to the router of the plurality of routers N1, ..., N9, respectively.
  • the servers S1 and S2 can publish the service to the routers N1, ..., N9 by means of a respective availability message as depicted in Figure 1a . Therefore the servers S1 and S2 can send the availability message to their neighboring routers N6, N7 and N7, N8, N9, respectively, indicated by single arrows in Figure 1a . Preferably, only the first time a router receives the availability message the router forwards the availability messages to its neighboring routers, indicated by double arrows in Figure 1a . However, each router may perform at least one time the inventive method.
  • Each router N1, ..., N9 provides a routing table 6, a service performance table 5 and an interest route table 7.
  • the structure of these tables is shown in the Figures 4 a, 4b, and 4c as follows:
  • Each router N1, ..., N9 stores in its routing table 6 for each service 3a at least one connection port 6b associated with the service 3a.
  • Each router N1, ..., N9 stores in its service performance table 5 for each service of the at least one service service performance data associated with two or more connection ports of the router.
  • the service performance data comprises for each service 3a and for each connection port 5b of the respective router the load data 4d associated with the server of the at least two servers S1, S2 being reachable via the connection port 5b, the respective minimal bandwidth 4e of the routing path towards the server, a respective delay time 5c, a respective rating data 5f and a thereto associated probability 5g.
  • a first router N3 sends to the neighboring routers N1, N2, N4, N6, N7 via its connection ports an interest packet associated with the service comprising a service name indicator 3a and a unique interest tag 3b as indicated in figure 1b by means of plain arrows.
  • Figure 3a shows the data structure 3 of the interest packet while being routed along the route R as shown in Figure 1b from a first router N3 towards the server S1 providing the at least one service.
  • the interest packet comprises name indicator 3a and a unique interest tag 3b, and one or more timestamps, or timestamp data, 3c.
  • a second router N2 receives the interest packet via an incoming connection port, sends the interest packet via an outgoing connection port associated with the service 3a in its routing table 6 and stores the interest tag 3b of the received interest packet together with the incoming connection port and the outgoing connection port in its interest route table 7.
  • the server S1 receives via the route R - as indicated in Figure 1b by means of the plain arrow and the dotted arrows - the interest packet through the routers N3, N2, and N6.
  • the route R is only to be understood as an example, other possible routes are indicated in the figures 1b and 1c by the dotted arrows.
  • the server S1 attaches data comprising load data of the at least one service to the interest packet as well as available bandwidth data and sends the interest packet back to the second router N2 via the routing path R as shown in Figure 1c .
  • Figure 3b shows a data structure 4 of the interest packet while being routed backwards from the server S1 providing the service to the first router N3.
  • the interest packet comprises the service name indicator 3a and the unique interest tag 3b, and the timestamps attached by the routers N3, N2 and N6 as timestamp data 3c, and furthermore the load data 4d of the service at the server S1, and the bandwidth data 4e.
  • the second router N2 receives the interest packet and calculates service performance data based on the data attached to the interest packet.
  • the second router N2 stores the service performance data in its service performance table 5 and updates its routing table 6 based on an evaluation of the service performance data stored in its service performance table 5 and sends the interest packet via the incoming connection port as associated by the interest route table 7 back along the route R to the first router N3.
  • the interest packet is sent by along exactly the same routing path which it had marked by "breadcrumbs" on the route to the server S1.
  • the first router N3 receives the interest packet via the outgoing connection port associated with the interest tag 3b stored in its interest route table and calculates service performance data based on the data attached to the interest packet.
  • the first router N3 stores the service performance data in its service performance table 5 and updates its routing table 6 based on an evaluation of the service performance data stored in its service performance table 5.
  • the second router N2, the first router N3 and the router N6 - in the present example - attach their respective timestamp data indicating the time of the arrival or forwarding of the interest packet at the second router N2, the first router N3 and the router N6, respectively.
  • the second router N2, the first router N3 and the router N6 calculate delay time data being part of the service performance data associated with interest packet by means of the interest tag 3b in their service performance table 5 based on the respective local time or reception time of the interest packet at the second router N2, the first router N3 and the router N6, respectively and the respective timestamp data previously attached to the interest packet by the second router N2, the first router N3 and the router N6, respectively.
  • the second router N2, and the server S1, and the router N6 attach their local bandwidth data, which is preferably associated with the connection and/or connection port, to the interest packet in case that there is no bandwidth data attached or the attached bandwidth data corresponds to bandwidth which is larger than the their respective local bandwidth. This is achieved by comparing the bandwidth data stored in the interest packet with the local bandwidth data associated with the incoming and/or outgoing connection port and replacing the bandwidth data in the interest packet by the local bandwidth data in case that the local bandwidth is smaller than the bandwidth stored.
  • the service performance table 5 will correspondingly be updated in that case.
  • the second router N2, the first router N3 and the router N6 use the minimum of the local bandwidth and the bandwidth stored in the interest packet to calculate the service performance data associated with interest packet by means of the interest tag 3b in the service performance table 5.
  • the second router N2, the first router N3 and the router N6 store rating data associated with result of the calculation of the service performance data calculation in their service performance table 5.
  • the rating data is inversely proportional to the load data of the server S1, inversely proportional to delay time data and proportional to bandwidth data associated with the service.
  • the second router N2, the first router N3 and the router N6 calculate probability data for each outgoing connection port associated with the service based on the rating data.
  • the probability associated with the service and with the connection port associated with the service is the associated rating divided by the sum of all ratings associated with the at least one service irrespective of the connection port.
  • the second router N2, the first router N3 and the router N6 update their routing table 6 by means of storing the at least one connection port associated with the at least one service having a maximum probability.
  • Each router reduces a result of its calculation of the service performance data calculation, preferably periodically every 1 minute to 10 minutes, by multiplication of a factor, wherein the factor is a number between 0 and 1, being preferably equal to 0.9.
  • each router N1, ..., N9 restarts the method with the step of sending to two or more neighboring routers via its connection ports NI an interest packet for a randomly selected service from at least one service periodically with a predefined time period. Thereby the routing can be held optimal and up-to-date.
  • a router of the plurality of routers N1, ..., N9 checks whether there is a corresponding outgoing connection port listed in its routing table 6 or interest route table 7 of the router for sending the interest packet via an outgoing connection port. In case there is no corresponding outgoing connection port listed then the router starts the method with the step of sending to its neighboring routers via its connection ports an interest packet associated with the at least one service comprising the service name indicator 3a and a unique interest tag 3b.
EP10290663.3A 2010-12-17 2010-12-17 Verfahren und Router für ein dienstabhängiges Routing Not-in-force EP2466810B1 (de)

Priority Applications (6)

Application Number Priority Date Filing Date Title
EP10290663.3A EP2466810B1 (de) 2010-12-17 2010-12-17 Verfahren und Router für ein dienstabhängiges Routing
US13/883,134 US20130262698A1 (en) 2010-12-17 2011-09-26 Method and router for service named routing
CN2011800606181A CN103329487A (zh) 2010-12-17 2011-09-26 执行服务命名路由的方法和路由器
JP2013543579A JP5671629B2 (ja) 2010-12-17 2011-09-26 サービス名付きルーティングのための方法およびルータ
PCT/EP2011/066640 WO2012079792A1 (en) 2010-12-17 2011-09-26 Method and router for service named routing
KR1020137015340A KR101467720B1 (ko) 2010-12-17 2011-09-26 서비스 명명식 라우팅 방법 및 라우터

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EP10290663.3A EP2466810B1 (de) 2010-12-17 2010-12-17 Verfahren und Router für ein dienstabhängiges Routing

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EP2466810A1 true EP2466810A1 (de) 2012-06-20
EP2466810B1 EP2466810B1 (de) 2015-09-23

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EP (1) EP2466810B1 (de)
JP (1) JP5671629B2 (de)
KR (1) KR101467720B1 (de)
CN (1) CN103329487A (de)
WO (1) WO2012079792A1 (de)

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